Abstract

Haemostasis depends on the balanced participation of von Willebrand factor (vWF), a large multimeric and multidomain glycoprotein with essential role during the initial steps of blood clotting. Mature vWF circulates in plasma with the form of multimers comprised of several domains with diverse functions. More specifically, the A1 domain of vWF plays crucial role in haemostasis, regulating the mechanism of platelet adhesion in sites of vascular injury while A2 domain regulates the normal turnover of vWF. Recent studies have implied that an intramolecular interaction between A1 and A2 domains exists, which prevents platelets adhesion and subsequently inhibits the initial step of the blood coagulation mechanism. In an effort to elucidate the essential nature of the interaction between these two domains, we produced and purified the corresponding recombinant unmodified polypeptides. The secondary structure of the two domains was studied individually and as a mixture using circular dichroism spectroscopy. The observed interaction was verified by ELISA competition assays using antibodies and their ability to form productive interactions was further characterized kinetically. In silico analysis (docking and molecular dynamics simulations) of the A1-A2 binding indicated three possible structural models highlighting the crucial, for this interaction, region.